Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024623 (gastric cancer)
36,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The potential correlation of E-cadherin reduction and Wnt2 up-regulation in determining the intracellular distribution of beta-catenin in gastric cancers was investigated by the methods of frozen tissue array-based immunohistochemistry, Western blot and RT-PCR analysis. It was revealed that membranous E-cadherin was reduced frequently in the two major subtypes of gastric cancer (intestinal gastric cancer, i-GC and diffuse gastric cancer, d-GC) and closely correlated with the risk of lymphoid node metastasis (P < 0.05). The reduction of membranous E-cadherin was paralleled with cytosolic and nuclear accumulation of beta-catenin and the increased Wnt2 expression. These results indicate that the reduced E-cadherin is a common genetic phenotype of GCs and plays beneficial roles in tumor metastasis. Altered beta-catenin distribution may result from the imbalance of E-cadherin production and Wnt expression, which confers on gastric cancer cells more aggressive behaviors.
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PMID:Frequent loss of membranous E-cadherin in gastric cancers: A cross-talk with Wnt in determining the fate of beta-catenin. 1613 82

SLIT1 gene at human chromosome 10q24.1, SLIT2 gene at 4p15.31, and SLIT3 gene at 5q34-q35.1 encode large secreted proteins functioning as ligands for Roundabout (Robo) receptors. SLIT-ROBO signaling pathway is implicated in neurogenesis, angiogenesis, and immune response through the regulation of axonal guidance, endothelial cell migration, and denderitic cell migration, respectively. GREMLIN (CKTSF1B1 or GREM1) and DANTE (CKTSF1B3 or GREM3) are secreted antagonists for BMPs and SLITs. Here, comparative integromics analyses on SLIT1, SLIT2, and SLIT3 orthologs were performed by using bioinformatics. Rat Slit2 gene, consisting of 36 exons, was located within rat genome sequences AC098362.4 and AC111627.6. Mouse Slit3 complete coding sequence was determined by assembling BB634238 EST, AF144629 cDNA, and AK129223 cDNA. Leucine-rich repeats with nine conserved cysteine (LRRCC) domains and SLIT C-terminal cysteine-rich (SLITCCR) domain were identified in this study. CPxxCxCxxxxVxCxxxxLxxxPxxxPx(10~58) Nx(19,20)LxxNx(9)Fx(8)LxLxxNxxxCxxxxxFxxLxxx xxLxLxxNx(9)Fx(13)NxxxCxCxxxWLx(15)CxxPx(17)C was the consensus sequence of LRRCC domain. Mammalian SLIT1, SLIT2 and SLIT3 orthologs were large secreted proteins with four LRRCC domains, nine EGF domains, Laminin G (LamG) domain, and SLITCCR domain. SLIT1 mRNA was expressed in fetal brain, infant brain, anaplastic oligodendroglioma, and Jurkat T cells. SLIT2 and SLIT3 mRNAs were co-expressed in embryonic stem (ES) cells with embryoid body formation, and diffuse type gastric cancer with signet ring cell features. Double TCF/LEF and bHLH-binding sites were conserved among mammalian SLIT1 promoters. FOXJ2, E47, ETS1, and FOXA2-binding sites and CCAAT box were conserved among mammalian SLIT3 promoters. Mammalian SLIT1 orthologs were identified as evolutionarily conserved targets of the WNT/beta-catenin signaling pathway.
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PMID:Comparative genomics on SLIT1, SLIT2, and SLIT3 orthologs. 1621 8

We cloned and characterized human WNT2B (WNT13) in 1996. Following our discovery of human WNT2B, others and we characterized mouse, rat, chicken and zebrafish WNT2B orthologs. Here, comparative integromics analyses on WNT2B and its clinical applications are reviewed. WNT2B-ST7L-CAPZA1 locus at human chromosome 1p13.2 and WNT2-ST7-CAPZA2 locus at human chromosome 7q31.2 are paralogous regions within the human genome. Two splicing variants occur from human WNT2B gene due to alternative promoters. WNT2B splicing variant 1 encodes secreted-type glycoprotein with WNT domain (WNT2B isoform 1), while WNT2B splicing variant 2 encodes transmembrane-type glycoprotein with WNT domain (WNT2B isoform 2). WNT2B splicing variant 2 is the evolutionarily conserved major transcript of human WNT2B gene. Mammalian WNT2B orthologs acquired the transmembrane domain and integrin-targeting RGD motif during vertebrate evolution. Human WNT2B isoform 2 and other vertebrate WNT2B orthologs are canonical WNTs to determine cell fate through the activation of beta-catenin/TCF signaling pathway and SNAIL/EMT signaling pathway. E box and CCAAT box are conserved within mammalian WNT2B promoters. WNT2B functions as the stem cell factor for neural or retinal progenitor cells during embryogenesis, and also for gastric cancer, esophageal cancer and skin basal cell carcinoma during carcinogenesis. Anti-WNT2B monoclonal antibody could be applied as selection marker of stem cells in the field of stem cell biology. Soluble WNT2B protein or small molecule WNT2B mimic compounds could be developed for stem cell expansion in the fields of tissue engineering and regenerative medicine. Anti-WNT2B monoclonal antibodies, WNT2B RNAi compounds, or small molecule WNT2B inhibitors could be developed as novel therapeutic agents for gastric cancer and esophageal cancer in the field of clinical oncology.
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PMID:WNT2B: comparative integromics and clinical applications (Review). 1627 93

The objective of the present study was to evaluate the combination of MUC1 and the status of adhesion molecules in advanced gastric cancers as a possible predictor of patient survival. Two hundred and two paraffin-embedded specimens of gastric carcinoma were examined by immunohistochemical staining using monoclonal antibodies against MUC1 mucin, E-cadherin and beta-catenin. The expression of MUC1 was considered positive if at least 10% of the neoplastic cells were stained. E-cadherin and beta-catenin were classified into four groups. Only a membranous pattern, which was stained as strongly as normal epithelial cells, was judged as normal. The absent pattern (loss of staining), cytoplasmic pattern (cytoplasmic staining with loss of membranous expression), and heterogeneous pattern (cytoplasmic staining with preservation of membranous expression) were considered abnormal. There was a significant relationship between MUC1-positive expression and abnormal expression of E-cadherin (P=0.017). The cancer with abnormal E-cadherin expression or MUC1-positive expression increased, indicating that the cancer invasion was deep. Survival analysis of the outcome revealed that the survival time for those with abnormal E-cadherin/MUC1-positive expression was shorter than for those with other expression patterns. Multivariate analysis revealed that patients with abnormal E-cadherin/MUC1-positive expression had a poorer prognosis with significance (P<0.0001). In conclusion, abnormal E-cadherin/MUC1-positive expression pattern in advanced gastric cancer is an independent unfavorable prognostic marker.
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PMID:Prognostic significance of combined expression of MUC1 and adhesion molecules in advanced gastric cancer. 1635 9

Many studies examine the molecular genetics of gastric cancer, but few look at young patients in particular and there is no comparison of molecular expression between early-onset gastric cancer (< or = 45 years old) and conventional gastric cancers. Expression of cycloxygenase-2 (COX-2) is elevated in gastric adenocarcinomas compared to non-neoplastic mucosa, and in light of studies showing reduced risk of gastric cancer in nonsteroidal anti-inflammatory drug users, we have chosen to investigate the expression of COX-2 and related molecules in 113 early-onset gastric cancers and compare it with 91 conventional gastric cancers, using tissue microarrays. These markers include molecules known to be important in conventional gastric carcinogenesis, such as E-Cadherin, p53, COX-2, Trefoil Factor-1 (TFF1), beta-catenin, p16 and c-myc; as well as molecules not yet described as being important in gastric cancer, such as the transcription factor c-jun, the COX-2 mRNA stabilizer HuR, and C/EBP-beta, a transcription factor for COX-2. All markers showed a statistically significant difference between early-onset gastric cancers and conventional gastric cancers, using a chi2 test. In particular, early-onset gastric cancers displayed a COX-2 Low, TFF1-expressing phenotype, whereas COX-2 overexpression and loss of TFF1 was found in conventional cancers, and this difference between early-onset gastric cancers and conventional cancers remained statistically significant when adjusted for location and histology (P<0.0001 and P = 0.002 respectively). We found that COX-2 overexpression correlates significantly with loss of TFF1 (P = 0.001), overexpression of C/EBP-beta (P<0.001) and cytoplasmic HuR (P = 0.016). COX-2 was significantly associated with p53 positivity (P = 0.003). Abnormalities in E-Cadherin correlated significantly with diffuse phenotype, whereas high expression of COX-2, loss of TFF1 and overexpression of C/EBP-beta correlated with the intestinal phenotype. Our results provide further evidence that early-onset gastric cancer exhibits a distinctive expression profile that may have practical implications.
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PMID:Early-onset gastric cancers have a different molecular expression profile than conventional gastric cancers. 1647 75

WNT, Notch, FGF, and Hedgehog signaling pathways network together during embryogenesis, tissue regeneration, and carcinogenesis. Association of Notch ligands with Notch receptors on neighboring cells leads to cleavage of Notch receptors by metalloprotease and gamma-secretase to induce nuclear translocation of Notch intracellular domain (NICD). Nuclear complex, consisting of CSL (RBPSUH), NICD, Mastermind (MAML), p300 and histone acetyltransferase (HAT), then induces transcriptional activation of Notch target genes, such as HES1, HES5, HES7, HEY1, HEY2 and HEYL. Here, we searched for TCF/LEF-binding site within the promoter region of Notch ligand genes, including DLL1, DLL3, DLL4, JAG1 and JAG2. Because TCF/LEF-binding sites were identified within human JAG1 promoter based on bioinformatics and human intelligence, comparative genomics analyses on JAG1 orthologs were further performed. Chimpanzee JAG1 gene, consisting of 26 exons, was identified within NW_120319.1 genome sequence. XM_525264.1 and XM_514517.1 were not the correct coding sequences for chimpanzee JAG1. Chimpanzee JAG1 gene was found to encode a 1218-amino-acid protein showing 99.5% and 96.2% total-amino-acid identity with human JAG1 and mouse Jag1, respectively. Phylogenetic analysis revealed that JAG1 orthologs were more conserved than those of other Notch ligands. JAG1 gene was identified as evolutionarily conserved target of WNT/beta-catenin signaling pathway based on the conservation of double TCF/LEF-binding sites within 5'-promoter region of mammalian JAG1 orthologs. Human JAG1 mRNA was expressed in embryonic stem (ES) cells, neural tissues, lung carcinoid, gastric cancer, pancreatic cancer, colon cancer, and also in squamous cell carcinoma (SCC) of skin, oral cavity, esophagus, head and neck. JAG1 expression on progenitor cells due to canonical WNT signaling activation induces self-renewal of stem cells due to Notch signaling activation. JAG1, functioning as WNT-dependent Notch signaling activator, is the key molecule maintaining the homeostasis of stem and progenitor cells.
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PMID:Notch ligand, JAG1, is evolutionarily conserved target of canonical WNT signaling pathway in progenitor cells. 1652 28

EFNA1, EFNA2, EFNA3, EFNA4, EFNA5, EFNB1, EFNB2 and EFNB3 are EFN family ligands for EPH family receptors. EFN/EPH signaling pathway networks with the WNT signaling pathway during embryogenesis, tissue regeneration, and carcinogenesis. Comparative genomics analyses on EFNB1, EFNB2 and EFNB3 were performed by using bioinformatics and human intelligence (humint). EFNB1 mRNA was expressed in human embryonic stem (ES) cells, neural tissues, diffuse type gastric cancer, pancreatic cancer, colon cancer, brain tumors and esophageal cancer, EFNB2 mRNA in human ES cells, neural tissues and colon cancer, EFNB3 mRNA in human ES cells, neural tissues, brain tumors, pancreatic cancer and colon cancer. Because triple TCF/LEF-binding sites were identified within the 5'-promoter region of human EFNB3 gene, comparative genomics analyses on EFNB3 orthologs were further performed. Chimpanzee EFNB3 gene, consisting of five exons, was identified within AC164921.3 genome sequence. AY421228.1 was not a correct coding sequence for chimpanzee EFNB3. Chimpanzee EFNB3 gene was found to encode a 340-amino-acid protein showing 99.4% and 96.6% total-amino-acid identity with human EFNB3 and mouse Efnb3, respectively. Three TCF/LEF-binding sites within human EFNB3 promoter were conserved in chimpanzee EFNB3 promoter, and the second TCF/LEF-binding site in rodent Efnb3 promoters. CpG hypermethylation of EFNB3 promoter with 63.2% GC content as well as deletion of EFNB3 gene closely linked to TP53 tumor suppressor gene at human chromosome 17p13.1 should be investigated to elucidate the mechanism of infrequent EFNB3 upregulation in human colorectal cancer. EFNB3, identified as potential transcriptional target of WNT/beta-catenin signaling pathway, is a pharmacogenomics target in the fields of regenerative medicine and oncology.
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PMID:Comparative integromics on Ephrin family. 1659 16

The laboratory mouse (Mus musculus) has become one of the best model animal species in biomedical research today because of its abundant genetic/genomic information, and easy mutagenesis using transgenic and gene knockout technology. Genetically engineered mice have become essential tools in both mechanistic studies and drug development. In this article I will review recent topics in gastrointestinal cancer model mice, with emphasis on the results obtained in our laboratory. They include: (i) mouse models for familial adenomatous polyposis (Apc mutant mice; modifier genes of Apc intestinal polyposis; stabilizing beta-catenin mutant mice); (ii) mouse models for colon cancer (mouse models for hereditary non-polyposis colon cancer; additional mutations in Apc mutant mice; models with mutations in other genes; models for colon cancer associated with inflammatory bowel diseases); and (iii) mouse models for gastric cancer.
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PMID:Mouse models of gastrointestinal tumors. 1663 Jan 31

Activation of Wnt signaling through beta-catenin dysregulation occurs in numerous human tumors, including gastric cancer. The specific consequences of Wnt signaling in gastric cancer, however, are not well characterized. This study shows that the introduction of mutant beta-catenin into gastric cancer cell lines by adenoviral infection enhances invasiveness and proliferation and up-regulates the expression of the gene encoding the matrix metalloproteinase (MMP) family member membrane type 3 MMP (MT3-MMP). Up-regulation of MT3-MMP is critical to the invasive phenotype as shown by small interfering RNA (siRNA) studies. Immunohistochemical staining also showed that MT3-MMP was highly expressed in gastric cancers with activating beta-catenin mutations. These observations suggest that Wnt activation may contribute to gastric cancer progression by increasing the invasiveness of neoplastic cells in the stomach via up-regulation of MT3-MMP expression.
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PMID:beta-Catenin/Wnt signaling regulates expression of the membrane type 3 matrix metalloproteinase in gastric cancer. 1665 26

AREG (Amphiregulin), BTC (beta-cellulin), EGF, EPGN (Epigen), EREG (Epiregulin), HBEGF, NRG1, NRG2, NRG3, NRG4 and TGFA (TGFalpha) constitute EGF family ligands for ERBB family receptors. Cetuximab (Erbitux), Pertuzumab (Omnitarg) and Trastuzumab (Herceptin) are anti-cancer drugs targeted to EGF family ligands, while Gefitinib (Iressa), Erlotinib (Tarceva) and Lapatinib (GW572016) are anti-cancer drugs targeted to ERBB family receptors. AREG and TGFA are biomarkers for Gefitinib non-responders. The TCF/LEF binding sites within the promoter region of human EGF family members were searched for by using bioinformatics and human intelligence (Humint). Because three TCF/LEF-binding sites were identified within the 5'-promoter region of human AREG gene, comparative genomics analyses on AREG orthologs were further performed. The EPGN-EREG-AREG-BTC cluster at human chromosome 4q13.3 was linked to the PPBP-CXCL segmental duplicons. AREG was the paralog of HBEGF at human chromosome 5q31.2. Chimpanzee AREG gene, consisting of six exons, was located within NW_105918.1 genome sequence. Chimpanzee AREG was a type I transmembrane protein showing 98.0% and 71.4% total amino-acid identity with human AREG and mouse Areg, respectively. Three TCF/LEF-binding sites within human AREG promoter were conserved in chimpanzee AREG promoter, but not in rodent Areg promoters. Primate AREG promoters were significantly divergent from rodent Areg promoters. AREG mRNA was expressed in a variety of human tumors, such as colorectal cancer, liver cancer, gastric cancer, breast cancer, prostate cancer, esophageal cancer and myeloma. Because human AREG was characterized as potent target gene of WNT/beta-catenin signaling pathway, WNT signaling activation could lead to Gefitinib resistance through AREG upregulation. AREG is a target of systems medicine in the field of oncology.
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PMID:Canonical WNT signaling pathway and human AREG. 1668 31


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